Tuner actuating mechanism

ABSTRACT

A PUSHBUTTON SLIDE IS SELECTIVELY ENGAGEABLE WITH ONE OR THE OTHER OF AN ACTUATING DEVICE ON EACH SIDE OF THE SLIDE. A TOGGLE LEVER CARRIED BY THE SLIDE IS MOVABLE INTO ENGAGEMENT WITH THE SELECTED ACTUATING DEVICE TO RENDER THE SAME OPERATIONAL.

Sept. 21,1911 NEWMAN Re. 21,119

V TUNER ACTUATING MECHANISM Original Filed Jan. 24, 1966 V 2 Sheets-Sheet 1 FlG.l

iNVENTOR GI LEAD H. NEWMAN ATTORNEYS P 21, 1 G. H. NEWMAN TUNER AGTUATING IIEGHANISII Origihal Filed Jan. 24, 1966 2 Sheets-Sheet I FIG-3 M M w E N v m H D A E H 0 f ATTORNEYS United States Patent 27,179 TUNER ACTUATING MECHANISM Gilead H. Newman, Des Plaines, Ill., assignor to TRW Inc, Cleveland, Ohio Original No. 3,357,264, dated Dec. 12, 1967, Ser. No.

522,433, Jan. 24, 1966. Application for reissue Apr.

29, 1969, Ser. No. 830,553

Int. Cl. F16h 35/18 US. Cl. 7410.27 7 Claims Matter enclosed in heavy brackets I: appears in the original patent but forms no part of this reissue specification; matter printed in italics indicates the additions made by reissue.

ABSTRACT OF THE DISCLOSURE A pushbutton slide is selectively engageable with one Or the other 0 an actuating device on each side of the slide. A toggle lever carried by the slide is movable into engagement with the selected actuating device to render the same operational.

This invention relates generally to push-button tuners for automobile radios, and more particularly to pushbutton tuner assemblies wherein each push button is used to select more than one radio station. The invention has particularly applicability to FMAM automobile radios to permit the use of the same set of push buttons for selecting stations within both the FM and AM bands.

An object of the present invention is to provide a pushbutton tuner which can select a plurality of radio stations and which tuner is compact in size and relatively inexpensive to manufacture.

Another object of the present invention is to provide a push-button turner wherein the push buttons are used to select a predetermined group of radio stations while the tuner is in one mode of operation, and the push buttons are used to select a different group of radio stations while the tuner is in another mode of operation.

A feature of the present invention is a slidable gate which has a plurality of switching fingers to selectively engage a corresponding number of toggle levers, to selectively place the tuner in one of two modes of operation.

Another feature of the present invention is a toggle lever which is pivotally connected to each of the pushbutton slides of the tuner. The toggle levers provide efficient means for mechanically connecting each of the push buttons to either one of two actuating devices associated with each of the push buttons.

Briefly, the push-button tuner assembly of the present invention is provided with a plurality of push-button slides. Each of the push-button slides has associated therewith two resettable actuating devices for engaging the tuning mechanism within the tuner. A slidable selector knob is secured to a mechanical gate which, in turn, has a plurality of switching fingers engageable with a corresponding number of toggle levers. Each toggle lever is pivotally connected to a corresponding push-button slide and alternately engageable with a notch in each of the actuating devices associated therewith.

Therefore, when the selector knob is in one position, each of the push buttons is mechanically connected to a particular actuating device to place the radio in condition to be selective of one group of radio stations, for example, on the FM band. However, when the selector knob is in another position. each of the push buttons is mechanically connected to the other one of the actuating devices associated therewith, to place the radio in condition to be elective of a second group of radio stations, for example, on the AM hand.

These and other objects and features of the invention will be more fully realized and understood from the fol lowing detailed description when taken in conjunction with the accompanying drawings in which like reference numerals throughout the various views of the drawings designate similar elements.

On the drawings:

FIGURE 1 is a top plan view of a push-button tuner constructed in accordance with the principles of the present invention and which has a portion broken away to more clearly illustrate the invention;

FIGURE 2 is a front elevational view of the push-button tuner of FIGURE 1;

FIGURE 3 shows a detailed construction of one of the actuating devices engaged with one side of the toggle lever;

FIGURE 4 shows a detailed construction and operation of the slidable gate and the toggle lever when the gate is moved in one direction; and

FIGURE 5 shows a detailed construction and operation of the slidable gate and the toggle lever when the gate is moved in the other direction.

As seen in FIGS. 1 and 2, a tuner housing 10 contains a tuning mechanism which includes a pair of rods 11 and 12. The rods 11 and 12 are coupled together to be incrementally rotatable within the housing 10 about a common axis intermediate the rods and parallel therewith. Furthermore, the rods 11 and 12 are connected to a plurality of tuning slugs within the housing 10 through a series of links and levers (not shown) which constitutes the tuning mechanism. Therefore, when the rods 11 and 12 are rotated about their axes, the tuning slugs within the housing 10 will be moved in an axial direction within their associated coils, thereby causing the tuner to progressively change its reception frequency.

A clutch assembly 13 extends from the tuner housing 10 and is operated in the conventional manner. The clutch assembly 13 disengages a manual tuning knob, not shown, whenever the tuning mechanism is actuated by any of the push-button selector units of the tuner.

A dial indicator 14 is secured to an arm 15 which, in turn, is pivotably mounted to the top of the tuner by a cam 15a, as seen in FIGURES l and 2. The cam 15a is connected to the tuning mechanism within the housing 10 so as to move the dial indicator when the tuning. mechanism is moved. The dial indicator 14 provides a visual indication of the position of thhe tuning slugs within the tuner housing, and this information is interpreted in terms of reception frequency on a dial face of the radio as is well known in the art.

The housing 10 has a plurality of push-button selector units 16. 17, 18 and 19. Since the selector units 16-19 are substantially the same, only the selector unit 19 will be discussed in detail herein below. Furthermore, although there are four selector units shown, it should be evident that any number of such units could be employed.

The selector 19 consists of a pair of actuating devices 20 and 21 which are positioned on opposite sides of a push-button slide 22. A toggle lever 23 is pivotally connected to the push-button slide 22. The toggle lever 23 has a pair of wing-like extended portions 25 and 26, and a stem 27. The stem 27 may consist of a pair of legs extending from the toggle lever 23 from a point intermediate the extended portions 25 and 26,, and pivoted about a pin 24 carried by the slide 22.

As best seen in FIGURES 3, 4 and 5, the actuating devices 20 and 21 are provided with notches 28 and '29 respectively.'The extended portions 25 and 26 of the toggle lever 23 are positioned so as to alternately engage the notches 28 and 29. When the toggle lever is positioned as shown in FIGURE 4, the push-button slide 22 is mechanically connected to the actuating device 21 for movement therewith. That is, when the push-button slide is pressed inwardly, to select a different radio station, the actuating device 21 will be moved inwardly with the pushbutton slide. Also, the actuating device 21 will be pulled outwardly by the slide 22 when it is necessary to set the tuning mechanism within the housing to a different radio station which will be selected thereafter by the actuating device 21.

When the toggle lever 23 is in the position shown in FIGURE 5, the push-button slide 22 is mechanically connected to the actuating device 20. The actuating device will then move inwardly or outwardly, as desired, with the push-button slide 22. Therefore, a single push-button slide can be used to select two discrete radio stations by alternately changing the mechanical connection between the slide 22 and either one of the actuating devices and 21.

A selector knob is connected to a slidable gate 31 for movement thereby. The gate 31 is slidably connected to the housing 10 through a pair of apertures 32 and 33 located on opposite sides of the housing 10. The gate 31 is provided with a plurality of switching fingers 34, 35, 36 and 37 for slidable engagement with corresponding toggle levers such as 23. Movement of the gate 31 in one direction will cause all of the toggle levers to engage the corresponding notch in one group of the actuating devices such as 21, while movement of the gate in the other direction will cause the toggle levers to engage the corresponding notch in the other group of actuating devices such as 20. Therefore, the four push-button slides 22 are mechanically connected to one group of actuating devices during one instance thereby providing push-button selection of a first group of radio stations, and the push-button slides 22 are connected to a second group of actuating devices to provide push-button selection of a second group of radio stations.

To maintain the gate 31 in one of two positions, an over center spring 38 is connected to a pivotably mounted lever 39 which, in turn, is connected to the gate 31. The spring 38 and lever 39 maintain the gate 31 in the extreme right hand or left hand position whichever the case may be.

To maintain the toggle levers 23 precisely in engagement with the notching 28 or 29, the stem 27 has the bottom end thereof sharply tapered to form two angled sides 40 and 41, as best seen in FIGURES 4 and 5. The angled sides 40 and 41 engage a flat leaf spring 42 which, in turn, is secured to the push-button slide 22. Therefore, the resilient action of the spring 42 maintains the toggle lever 23 in either one of the two selected positions and prevents the toggle lever from inadvertently bouncing out of position until the switching finger 37 slidably engages the toggle lever 23. Furthermore, the spring 42 may be provided with a slight protuberance 44 substantially in the center thereof to further facilitate the function of maintaining the toggle lever 23 in either one of the two discrete positions.

As seen in FIGURE 3, a spring 45 is positioned about an extended portion 46 of the actuating device 21. When the push-button slide is pressed inwardly, the actuating device 21 connected thereto, by virtue of the notch 29 and the extended portion 26, will cause the actuating device 21 to move in the direction indicated by the arrow 47. Upon releasing the push button, the spring 45 will urge the actuating device 21 and the push button back to their neutral position.

A cam 48 is locked into position by a locking spring 49 when the actuating device 21 is moved in the direction of the arrow 47. However, when the actuating device 21 is moved in the direction indicated by arrow 50, beyond its neutral position, the locking spring 49 will release the cam 48 thereby allowing the cam 48 to sense the position of the actuating device within the housing 10. When the cam 48 senses the position of the actuating device, the cam acquires a position indicative of the position of the actuating 4 device, and will reset the actuating device to that particular position each time thereafter when the push-button slide 22 is depressed, as is well known in the art.

In summary, the present invention has provided a pushbutton tuner which is capable of push-button selection of twice as many radio station as there are push buttons on the tuner. When the gate 31 is moved in one direction, all of the toggle levers engage a corresponding notch within one of the actuating devices thereby mechanically connecting the push-button slide 22 to the corresponding actuating device. On the other hand, when the gate 31 is moved in the other direction, all of the toggle levers engage a notch in the other actuating device associated with each of the push-button slides, thereby mechanically connecting the slides to the other one of the actuating devices.

It will be understood that variations and modifications may be efiected without departing from the spirit and scope of the novel concepts of this invention.

What is claimed is:

[1. A radio tuner including:

a housing;

a tuning mechanism positioned within said housing;

a plurality of push-button slides positioned within said housing, each of said slides having a portion extended from said housing for receiving a push-button;

a plurality of actuating devices positioned within said housing adjacent each of said slides for selectively engaging said tuning mechanism; and

means selectively connecting each of said slides to certain ones of said plurality of actuating devices which are adjacent each of said slides, said means causing a certain group of actuating devices to be selectively engageable with said tuning mechanism for selectively tuning the radio to a certain group of radio stations when said means is in one position, and causing a difierent group of actuating devices to be selectively engageable with said tuning mechanism for selectively tuning the radio to a different group of radio stations when said means is in another position.]

[2. The tuner of claim 1 wherein said means includes a lever pivotably mounted to each of said slides and selectively connectable to certain ones of said plurality of actuating devices which are adjacent each of said slides] [3. The tuner of claim 1 wherein said means includes a mechanical gate which when moved in one position causes each of said slides to be connected to certain ones of said plurality of actuating devices and when moved to another position causes each of said slides to be connected to different ones of said plurality of actuating devices] [4. The tuner of claim 1 wherein said plurality of actuating devices includes two actuating devices positioned on opposite sides of each of said slides, said actuating devices having notches therein; and wherein said means includes toggle levers each having a pair of wing-like extended portions, a stem having one end thereof secured to and intermediate said extended portions and the other end thereof being sharply tapered to form two flat surfaces angled toward said extended portions, pivot means for connecting said toggle levers to corresponding ones of said slides at a point intermediate the ends of said stems, a movable mechanical gate mounted on said housing and having a plurality of switching fingers slidably engageable with corresponding ones of said toggle levera to place one of said extended portions of each of sairz. toggle levers in the notch of one of said actuating devices adjacent each of said slides when said gate is in one position, and to place the other of said extended portions of each of said toggle levers in the notch of the other of said actuating devices adjacent each of said slides when the gate is in a different position, thereby selectively alternately mechanically connecting each of said slides to one or the other of said actuating devices adjacent thereto, and a surface on each of said slides resiliently urged against the tapered end of corresponding ones of said stems on said toggle levers to cause each of said toggle levers to remain in engagement with the notch of the cor responding actuating devices adjacent each of said slides] [5. A ratio tuner having a tuning mechanism connected through a releasable clutch to a manual dial selector and connectable to a pushbutton,;se1ector including in combination:

a plurality of push-button slides;

first and second actuating devices associated with each of said slides for selectively engaging the tuning mechanism of the tuner; and

means for connecting each of said slides alternately to said first and second actuating devices associated therewith, thereby providing push-button selection of a first group of discrete radio stations when each of said slides is connected to corresponding ones of each of said first actuating devices and providing push-button selection of a second group of discrete radio stations When each of said slides is connected to a corresponding one of each of said second actuating devices] [6. The radio tuner of claim 5 wherein said means is connected between each of said push-button slides and said tuning mechanism to obtain push-button selection of twice as many radio stations as there are push buttons] 7. A radio tuner including a housing, a tuning mechanism positioned within said housing, a plurality of pushbutton slides having a portion extending from said housing for receiving a push-button, a plurality of actuating devices positioned within said housing adjacent each of said slides for selectively engaging said tuning mechanism, and means including a lever pivotally mounted to each of said slides and selectively connectible to certain ones of said plurality of actuating devices which are adjacent each of said slides for selectively tuning the radio to a certain group of radio stations when said means is in one position and causing a difierent group of actuating devices to be selectively engageable with said tuning mechanism for selectively tuning the radio to a difierent group of radio stations when said means is in another position.

8. The tuner of claim 7 wherein said means includes a mechanical gate which when moved in one position causes each of said slides to be connected to certain ones of said plurality of actuating devices and when moved to another position causes each of said slides to be connected to different ones of said plurality of actuating devices.

9. The tuner of claim 7 in which said plurality of actuating devices includes two actuating devices positioned on opposite sides of each of said slides, said actuating devices having notches therein, and wherein said lever is a toggle lever having a pair of wing-like extended portions, a stem having one end thereof secured to and intermediate said extended portions and the other end thereof being sharply tapered to form two flat surfaces angled towards said extended portions, pivot means for connecting said toggle levers to corresponding ones of said slides at a point intermediate the ends of said stems, and a movable mechanical gate mounted on said housing and having a plurality of switching fingers slidably engageable with corresponding ones of said toggle levers to place one of said extended portions of each of said toggle levers in the notch of one of said actuating devices adjacent each of said slides when said gate is in one position, and to place the other of said extended portions of each of said toggle levers in the notch of the other of said actuating devices adjacent each of said slides when the gate is in a different position, thereby selectively alternately mechanically connecting each of said slides to one or the other of said actuating devices adjacent thereto, and a surface on each of said slides resiliently urged against the tapered end of corresponding ones of said stems on said toggle levers to cause each of said toggle levers to remain in engagement with a notch of the corresponding actuating devices adjacent each of said slides.

10. A push-button tuner for a radio receiver having tuning elements for receiving signals from a plurality of stations in each of first and second frequency bands comprising: a plurality of pairs of spaced actuating devices, each of said pairs having one actuating device functionally connected to means for selectively tuning circuitry for receiving signals from said first frequency band and having the other actuating device functionally connected to means for selectively tuning circuitry for receiving signals from said second frequency band, a plurality of pushbutton slides, one push-button slide being positioned between the spaced actuating devices in each of said pair of devices, each push-button slide being precluded from lateral or vertical movement and being confined to move in a straight in-andout motion between its associated pair of actuating devices, band selector means laterally movable in a direction perpendicular to the movement of each of said push-button slides, and means responsive to said lateral movement of said band selector means to change operation of said tuner from one to the other of the said first and second frequency bonds by simultaneously selectively engaging each of said push-button slides with that one of its associated actuating devices which is functionally connected to said means for selectively tuning circuitry for receiving signals from that one of said first or second frequency bands to which operation of said tuner has been changed by said lateral movement of said band selector means.

11. The tuner of claim 10 in which said responsive means comprises each of said actuating devices having a slot therein and each of said push-button slides carrying means engageable with the slot of one or the other actuating means associated with it to thereby cause said actuating means to be engaged with said push-button slide when said slide is pushed inwardly.

12. The tuner of claim 10 in which said band selector means includes a mechanical gate movable in said direction perpendicular to the direction of movement of said push-button slides to cause selected ones of said actuating devices to be engaged by said slides.

13. The tuner of claim 10 in which said responsive means includes a toggle lever pivotally mounted on each of said push-button slides for selective engagement with one of said actuating devices.

References Cited The following references, cited by the Examiner, are of record in the patented file of this patent or the original patent.

UNITED STATES PATENTS 2,356,935 8/1944 Koch 7410.27X 3,247,728 4/1966 Wolf et a1. 74-10233 2,232,217 2/1941 Dijksterhuis et a1. 7410.39X 2,490,526 12/1949 Larson 74l0.37X 3,206,988 9/1965 Hopt et a1. 7410.27

MILTON KAUFMAN, Primary Examiner US. Cl. X.R. 7410.33; 3347 

